US20230141904A1 - Easy adjust tensioner assembly - Google Patents
Easy adjust tensioner assembly Download PDFInfo
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- US20230141904A1 US20230141904A1 US18/151,649 US202318151649A US2023141904A1 US 20230141904 A1 US20230141904 A1 US 20230141904A1 US 202318151649 A US202318151649 A US 202318151649A US 2023141904 A1 US2023141904 A1 US 2023141904A1
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- Prior art keywords
- bar
- tensioning
- assembly
- spring
- bracket
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H7/00—Gearings for conveying rotary motion by endless flexible members
- F16H7/08—Means for varying tension of belts, ropes, or chains
- F16H7/10—Means for varying tension of belts, ropes, or chains by adjusting the axis of a pulley
- F16H7/12—Means for varying tension of belts, ropes, or chains by adjusting the axis of a pulley of an idle pulley
- F16H7/1254—Means for varying tension of belts, ropes, or chains by adjusting the axis of a pulley of an idle pulley without vibration damping means
- F16H7/1281—Means for varying tension of belts, ropes, or chains by adjusting the axis of a pulley of an idle pulley without vibration damping means where the axis of the pulley moves along a substantially circular path
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D43/00—Mowers combined with apparatus performing additional operations while mowing
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D69/00—Driving mechanisms or parts thereof for harvesters or mowers
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H7/00—Gearings for conveying rotary motion by endless flexible members
- F16H7/08—Means for varying tension of belts, ropes, or chains
- F16H7/10—Means for varying tension of belts, ropes, or chains by adjusting the axis of a pulley
- F16H7/12—Means for varying tension of belts, ropes, or chains by adjusting the axis of a pulley of an idle pulley
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D41/00—Combines, i.e. harvesters or mowers combined with threshing devices
- A01D41/12—Details of combines
- A01D41/1243—Devices for laying-out or distributing the straw
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01F—PROCESSING OF HARVESTED PRODUCE; HAY OR STRAW PRESSES; DEVICES FOR STORING AGRICULTURAL OR HORTICULTURAL PRODUCE
- A01F29/00—Cutting apparatus specially adapted for cutting hay, straw or the like
- A01F29/09—Details
- A01F29/14—Drives
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H7/00—Gearings for conveying rotary motion by endless flexible members
- F16H7/08—Means for varying tension of belts, ropes, or chains
- F16H2007/0802—Actuators for final output members
- F16H2007/0806—Compression coil springs
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H7/00—Gearings for conveying rotary motion by endless flexible members
- F16H7/08—Means for varying tension of belts, ropes, or chains
- F16H2007/0876—Control or adjustment of actuators
- F16H2007/088—Manual adjustment
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H7/00—Gearings for conveying rotary motion by endless flexible members
- F16H7/08—Means for varying tension of belts, ropes, or chains
- F16H2007/0889—Path of movement of the finally actuated member
- F16H2007/0893—Circular path
Definitions
- the present invention relates to a tensioner bar apparatus.
- the invention relates to a tensioner bar apparatus for use with a tensioner arm for a drive belt.
- a drive belt may typically be found in an agricultural apparatus, such as a combine harvester or other agricultural machine.
- Combine harvesters and other agricultural machines commonly contain a number of drive systems comprising a belt or chain to transfer power from a drive source to a driven power consuming system.
- Such belts or chains are often provided with a means for tensioning or taking up slack in the belt or chain in the drive system.
- FIG. 1 shows a typical drive system 60 from a combine harvester.
- the drive system 60 provides drive power to a straw chopper at the rear end of a combine harvester.
- the drive system 60 comprises a driving wheel 61 and a driven wheel 62 connected by a belt 63 .
- Tension in the belt 63 is applied by an idler wheel 47 , which presses against the belt 63 and is mounted on a tensioning arm 41 .
- the idler wheel 47 is rotationally mounted on a first end 41 a of the tensioning arm 41 , and the tensioning arm 41 is pivotally mounted, at a midpoint 41 m, to the combine harvester.
- a tensioning bar assembly 11 To the second end 41 b of the tensioning arm is connected a tensioning bar assembly 11 , which applies a tensioning force Fa.
- the tensioning bar assembly 11 comprises a longitudinal bar 2 .
- a clevis assembly 3 At a first, or ‘top’ end 2 t of the bar 2 is a clevis assembly 3 , which is connected to the second end 41 b of the tensioning arm 41 by a clevis pin 36 .
- the longitudinal bar 2 is rotationally fixed to the clevis assembly 3 such that in effect the bar 2 and clevis assembly 3 are a unitary item.
- a portion 2 a of the bar 2 has a screw thread. Fitted over this threaded portion 2 a of the bar 2 is a spring 4 s, provided with a top retainer 4 t and a bottom retainer 4 b, which together keep the spring 4 s in place.
- the top retainer 4 When in position on the machine, the top retainer 4 t butts up against a bracket 20 attached to the combine harvester.
- the bottom retainer 4 b is kept in its position on the bar 2 by a pair of locking nuts 5 a, 5 b fitted onto the screw thread—a first locking nut 5 a for adjustment of spring compression and the second locking nut 5 b for locking the first locking nut 5 a in place.
- the spring 4 s When in position on the machine, the spring 4 s is effectively compressed between the bracket 20 and the locking nuts 5 a, 5 b via the action of the top and bottom retainers 4 t, 4 b, respectively.
- the action of the spring 4 s on the top retainer 4 t, and thus the bracket 20 acts to ‘push’ the bottom retainer 4 b, and thus the locking nuts 5 a, 5 b, away from the bracket 20 .
- the locking nuts 5 a, 5 b are threaded onto the longitudinal bar 2 , this provides an axial force Fa along the bar 2 which in turn, through the clevis 3 and clevis pin 36 , produces a sustained force on the second end 41 b of the tensioning arm 41 .
- a tensioning bar assembly 111 for a tensioning assembly 101 of a drive system 60 of an agricultural machine includes a longitudinal bar 102 having a longitudinal axis 102 x, a top end 102 t and a bottom end 102 b and a threaded portion 102 a over at least a portion of the bar; an attachment device 103 coupled to the top end of the longitudinal bar for attaching the top end of the bar to a tensioning arm 41 ; a compression spring 4 s having first 6 b and second 6 t ends and located around a portion of the longitudinal bar; a first spring retainer 4 b for engaging with and retaining the first end 6 b of the spring; a first locking nut 5 a for fitting to the threaded portion 102 a of the bar and for retaining the first spring retainer longitudinally in place relative to the bar.
- the longitudinal bar is rotationally freely coupled to the attachment device 103 to permit free axial rotation of the bar about the longitudinal axis 102 x relative to the attachment device.
- An engagement head 102 h, 302 h is attached to and located at or proximate the bottom end 102 b of the longitudinal bar 102 .
- the engagement head is configured for engagement with a tool.
- tensioning bar assembly may be performed by using a single wrench to hold the locking nut rotationally stationary relative to the longitudinal axis of the bar, and a second tool can then be used to engage with the engagement head attached to the bottom end of the bar.
- the bar itself can be rotated by the second tool, resulting in a rotational motion of the bar relative to the locking nut and hence altering the longitudinal placement of the locking nut on the threaded portion of the bar.
- the engagement head may not require the use of an open end wrench and may be provided with a head for engagement with a complementary socket, or alternatively a socket for engagement with a complementary head, or similar mechanical arrangement, which complementary head or socket may also be attached to a power tool of some kind, such as a pneumatic socket gun or power screwdriver.
- a power tool such as a pneumatic socket gun or power screwdriver.
- the tensioning bar assembly further comprises a second spring retainer for engaging with and retaining the second end of the spring.
- the tensioning bar assembly when in use the tensioning bar assembly will be fitted to a bracket and a tensioning arm.
- the second end of the spring may directly contact the bracket, but in other embodiments the bar assembly is provided with a second spring retainer which is formed to ‘cup’ the end of the spring. This second spring retainer either butts up against or is connected to the bracket.
- the first spring retainer is nominally kept in place longitudinally on the bar by the first locking nut. When the tensioner bar assembly is in place, the first spring retainer is pushed against the locking nut by the force of the spring.
- the first spring retainer and the first locking nut may be a unitary item, i.e., may be formed in one piece.
- first spring retainer and first locking nut are a unitary item, then engagement of the spring with the first spring retainer may be more easily facilitated, because perpendicular motion of the first spring retainer will be prohibited due to its engagement with the threaded portion of the bar. It will also further facilitate the adjustment of the tensioner bar assembly.
- the bar assembly may be provided with a second locking nut, fitted adjacent to the first locking nut on the threaded portion of the bar, in order to ‘lock’ the first locking nut in place.
- a second locking nut may be provided so as to assist in ‘locking’ the first locking nut, or, where there is a unitary first spring retainer/locking nut, the unitary item, axially in place on the threaded portion of the bar.
- the engagement head at or proximate the bottom end of the bar may be any one or more of: a triangle, square, pentagon or hex head or socket; a posidrive head or socket; a torx head or socket; a slotted or phillips screwdriver receiving socket; a spline head or socket; a pair of locking nuts locked in position on the threaded portion, proximate the bottom end of the bar; or an engagement head device screwed to the bottom end of the bar on the threaded portion, optionally locked in place with a locking nut 5 c.
- the engagement head at or proximate the bottom end of the longitudinal bar has the purpose of allowing a tool to be applied to the longitudinal bar at a convenient point, and advantageously allows access to the engagement head in a longitudinal direction. Any shape of head may be used that allows for engagement with a tool. In some embodiments, a power tool may be used.
- the bottom end of the bar may therefore have any head or socket or other shape that allows engagement with a tool, and in addition to those already listed this may include any one of a head or socket such as Security Torx, Tri-wing, Spanner, Clutch, Mortorq, Frearson, Supadriv, Polydrive, Double square, Bristol, Torq-set, One-way, Pentalobe, TP3, or TTAP head, or indeed any other suitable geometry.
- the bar may be manufactured with such a head or socket in place as a unitary item with the bar.
- the threaded portion of the bar may extend entirely to the bottom end of the bar, and a suitable head may be attached to the bottom end of the bar and locked in place with a locking nut.
- a hole may be present across a diameter of the bar, proximate to the bottom end, into which a pin may be inserted, and this pin may be engaged by a suitable tool.
- the top end 2 t of the longitudinal bar 2 is located through a hole 34 in a portion 31 of the attachment device 3 and is retained in place by means of snap ring(s) or circlip(s) 21 c, 22 c located in groove(s) 21 , 22 proximate the top end of the bar.
- the attachment device is a clevis.
- Axial rotation of the longitudinal bar relative to the clevis (or other attachment device), while the longitudinal bar is retained in the clevis may be achieved by provision of a hole, such as a circular hole, in a body of the clevis or device.
- the longitudinal bar generally has a round cross-section, and the top end of the bar may be inserted into and through the hole. This allows the axial rotation of the bar relative to the device/clevis.
- Longitudinal restriction of the bar relative to the body of the device may be achieved by a circular groove around the diameter of the bar at a point proximate the top end of the bar, into which a snap ring or circlip may be fitted.
- two such circular grooves may be provided so that a snap ring or circlip may be fitted to the bar on either side of the portion of the bar which penetrates the device, thus preventing axial movement of the bar relative to the device in either longitudinal direction.
- clevis may be used as an attachment device, such as an L-shaped bracket with a hole in either arm, a rod, bar or plate with a hole for attaching to a pivot point and a piece of hollow tubing attached thereto for receiving the bar, or any one of a number of other equivalent items.
- an attachment device such as an L-shaped bracket with a hole in either arm, a rod, bar or plate with a hole for attaching to a pivot point and a piece of hollow tubing attached thereto for receiving the bar, or any one of a number of other equivalent items.
- a clevis is generally used and for ease of reference herein a clevis may generally be referred to although any suitable alternative will be generally intended to be encompassed by such reference.
- a tensioning assembly 101 for a drive system includes a tensioning bar assembly 111 as described elsewhere herein, and further comprising a tensioning arm 41 pivotally mounted 41 p to the machine; a tensioning device 47 mounted to the tensioning arm for contacting the drive system 60 , 63 and applying a tensioning force Ft directly thereto; and a bracket 20 mounted to the machine.
- the attachment device 3 is attached to the tensioning arm 41 at an attachment point 41 b, 41 m, 3 p and the second end of the spring 6 t is in direct or indirect physical contact with the bracket 20 .
- Compression of the spring applied by and between the bracket 20 and the first spring retainer 4 b provides a resultant force Fa applied to the tensioning arm, via the attachment point 41 b, 41 m, 3 p, about the pivot mounting point 41 p of the tensioning arm, which produces the tensioning force Ft to force the tensioning device 47 into contact against the drive system 63 .
- the attachment point where the clevis is attached to the tensioning arm, may usefully be a pivot mount where a clevis pin is inserted through holes in arms of the clevis and also through a hole in the tensioning arm.
- Clevis pins, threaded clevis pins, and alternatives therefor are standard items well known to those skilled in the art, and any suitable pin or alternative may be used.
- Compression of the spring may be achieved by placing the second end of the spring against the bracket, attaching the clevis to the clevis attachment point, and then adjusting the first locking nut (via the method enabled by the main aspect of the invention) so as to move the first locking nut, and hence the first spring retainer towards the bracket, thus resulting in a compression of the spring.
- the spring thus produces a force which acts substantially longitudinally along the axis of the bar, either to pull the clevis attachment point towards the bracket, or, depending on the arrangement of the spring relative to the bracket and the arrangement of the tensioning arm, to push the clevis attachment point away from the bracket.
- the bracket is provided with a hole through which the bar of the bar assembly is fitted.
- the second end of the spring is placed against a second spring retainer, which is in turn placed against or connected to the bracket. Possible variations are described further in the embodiments below.
- the bracket has a facing side 20 f facing towards the tensioning arm and a distal side 20 d facing away from the tensioning arm; the spring 4 s, first retainer 4 b, and first locking nut 5 a are located on the distal side; and the second end of the spring 6 t is in direct or indirect physical contact with the distal side 20 d of the bracket such that the resultant force Fa acts to pull the attachment point 103 p towards the bracket.
- the bracket has a facing side 20 f facing towards the tensioning arm and a distal side 20 d facing away from the tensioning arm; the spring 4 s, first retainer 4 b, and first locking nut 5 a are located on the facing side; and the second end of the spring 6 t is in direct or indirect physical contact with the facing side of the bracket such that the resultant force acts to push the attachment point 103 p away from the bracket.
- the tensioning arm 41 has a first end 41 a and a second end 41 b, the tensioning device 47 being mounted proximate to the first end 41 a, the attachment point 103 p being proximate to the second end 41 b, and the pivotal mounting 41 p of the tensioning arm being at a midpoint 41 m between the first and second ends.
- the tensioning arm 241 , 341 has a first end 41 a and a second end 241 b, 341 b, the tensioning device 47 being mounted proximate to the first end 41 a, the pivotal mounting 241 p, 341 p of the tensioning arm being proximate to the second end 241 b, 341 b, and the attachment point 103 p being at a midpoint 241 m, 341 m between the first and second ends.
- the second end of the spring may act directly against the bracket, or may act on a second spring retainer which in turn acts upon the bracket.
- the bracket may comprise a dish or annular groove which acts as a second spring retainer.
- the longitudinal bar may be positioned so that it passes through a hole or notch in the bracket, and/or may be positioned so that it passes through a hole or a notch in the second spring retainer.
- the second spring retainer may comprise a hole or notch through which the longitudinal bar passes, and may be attached by an arm so that the spring is laterally displaced from the bracket, as in FIG. 4 c .
- the attachment may be by screws, rivets, a simple clamp, or by any other means generally known in the art, such as nut/bolt combination 27 shown in FIG. 4 c.
- the tensioning device may be any suitable device for pressing against the drive system of the machine.
- the drive system may be a belt drive or may be a chain drive.
- the tensioning device may be an idler wheel, roller, or may be a simple bar.
- the tensioning device may equally be an idler gear with teeth that engage the chain.
- a drive system comprising a tensioning arm assembly or tensioning assembly as described herein.
- an agricultural machine comprising a tensioning bar assembly, tensioning assembly or drive system as described herein.
- an agricultural machine may be a combine harvester.
- FIG. 1 shows a typical prior art drive system from a combine harvester. It shows a drive system which provides drive power to a straw chopper at the rear end of a combine harvester and which has a tensioning assembly comprising a tensioning arm and a tensioning bar assembly.
- FIG. 2 shows a cross-sectional view through a portion of the prior art tensioning assembly of FIG. 1 in more detail.
- FIG. 3 shows a diagrammatic view of elements of a tensioning bar assembly.
- FIG. 3 a shows a diagrammatic cross-sectional view of a clevis assembly.
- FIG. 3 b shows a diagrammatic partial view of an end of the bar assembly as shown in FIGS. 3 and 3 a .
- FIGS. 4 a , 4 b , and 4 c show schematic alternative arrangements of bar assembly, bracket, and tensioner arm.
- FIG. 1 shows:
- the drive system 60 comprises a driving wheel 61 and a driven wheel 62 connected by a belt 63 .
- Tension in the belt 63 is applied by a tensioning assembly 1 .
- Tensioning assembly 1 includes an idler wheel 47 which presses against the belt 63 with force Ft and is rotationally mounted on a tensioning arm 41 at a first end 41 a of the tensioning arm 41 .
- the tensioning arm 41 is pivotally mounted on a pivot 41 p, at a midpoint 41 m, to a combine harvester (not shown). To the second end 41 b of the tensioning arm 41 b is connected to a tensioning bar assembly 11 , which applies a force Fa to the end 41 b of the arm 41 .
- the tensioning bar assembly 11 comprises a longitudinal bar 2 .
- a clevis assembly 3 which is connected to the second end 41 b of the tensioning arm 41 by a clevis pin 36 at an attachment point 3 p.
- the longitudinal bar 2 is fixed to the clevis assembly 3 such that in effect the bar 2 and clevis 3 are a unitary item.
- a portion 2 a of the bar 2 has a screw thread. Fitted over this threaded portion 2 a of the bar 2 is a spring 4 s, having first end 6 b and second end 6 t, and also a first spring retainer 4 b and a second spring retainer 4 t which together keep the spring 4 s in place.
- spring retainer 4 t When in position on a combine harvester (or other machine), the second spring retainer 4 t butts up against bracket 20 which is attached, ultimately, to the combine harvester.
- spring retainer 4 t has a generally curved top surface which locates in a generally curved recess on the distal side 20 d of bracket 20 , which allows a degree of freedom of movement.
- Bar 2 fits through a hole provided in bracket 20 .
- Bracket 20 has a facing side 20 f facing towards the tensioning arm 41 and a distal face 20 d facing away from the tensioning arm.
- the first spring retainer 4 b is kept in its position on the bar by a pair of locking nuts 5 a, 5 b fitted onto the screw thread of bar portion 2 a — a first locking nut 5 a for adjustment of spring compression and the second locking nut 5 b for locking the nuts in place.
- the spring 4 s When in position on the machine, the spring 4 s is effectively compressed between the distal side 20 d of bracket 20 and the locking nuts 5 a, 5 b via the action of the top and bottom (second and first) retainers 4 t, 4 b on ends of the spring 6 t, 6 b respectively.
- FIG. 3 shows a tensioning bar assembly 111 for use as a replacement for the prior art tensioning bar assembly 11 shown in FIGS. 1 and 2 .
- a longitudinal bar 102 has a first or top end 102 t and a threaded portion 102 a that extends from roughly a mid-point of the bar 102 to a second, or bottom end 102 b of the bar 102 .
- a portion of the bottom end 102 b of the bar 102 is formed into a hex head 102 h so that a tool can be applied to it.
- Spring 4 s with ends 6 b and 6 t and first and second spring retainers 4 b and 4 t are fitted around the threaded portion 102 a of the bar 102 .
- First and second locking nuts 5 a and 5 b are also threaded on to portion 102 a of the bar 102 , adjacent the first spring retainer 4 b.
- a clevis assembly 103 At the top end 102 t of the bar 102 is affixed a clevis assembly 103 , shown in more detail in FIG. 3 a.
- FIG. 3 a shows that the clevis 103 has a main body 131 and arms 132 .
- the main body 131 has a hole 134 through which top end 102 t of bar 102 may slidingly fit.
- Hole 134 and bar 102 are circular in cross-section so that bar 102 may freely rotate within the hole 134 about longitudinal axis 102 x.
- Each of the arms 132 is also provided with a hole 135 through which a clevis pin 36 may be fitted.
- clevis pin 36 is further fitted with a circlip 37 .
- the top end of the bar 102 t is provided with grooves 121 and 122 , seen clearly in FIG.
- FIGS. 3 , 3 a and 3 b allows for the simple adjustment of the tensioning assembly by engaging a tool at locking nut 5 a, which can then be held stationary while the bar 102 is rotated by application of another tool to the hex head 102 h, thus rotationally moving bar 102 relative to nut 5 a and hence moving nut 5 a along the bar.
- Locking nut 5 b can similarly be moved along the bar until it butts up against nut 5 a, locking it in position.
- a final operation with wrenches on both nuts 5 a and 5 b may fully lock the nuts together.
- FIG. 4 a shows an alternative embodiment of tensioning assembly 101 where a tensioning bar assembly 111 is arranged as part of a tensioning assembly 101 where the tensioning bar assembly 111 is located the other side of the tensioning arm 41 than in the arrangement of prior art FIG. 1 .
- tensioning force Fa is a pushing force on tensioning arm 41 due to the placement of the spring 4 s, retainers ( 4 b, 4 t ) and a locking nut 5 a on the facing side 20 f of the bracket 20 .
- This results in the same torque T about pivot point 41 p and tensioning force Ft as illustrated in FIG. 1 albeit with a different placement of elements of the tensioning assembly.
- FIG. 4 b shows an alternative embodiment where force Fa from tensioning bar assembly 111 is a pushing force on tensioning arm 241 due to the placement of the spring 4 s, a retainer 4 b and nut 5 a on the facing side 20 f of the bracket 20 .
- arm 241 is pivotally mounted 241 p at its second end 241 b and clevis 103 is mounted via pin 103 p to a midpoint 241 m of the arm 241 .
- Pushing force Fa again results in a torque T about pivot point 241 p which provides a tensioning force Ft on the belt 63 .
- second end 6 t of spring 4 s acts directly against the face 20 f of the bracket 20 and there is no retainer 4 t.
- FIG. 4 c shows an alternative embodiment where force Fa is a pulling force on tensioning arm 341 and tensioning arm 341 is pivoted about its second end 341 b with clevis 103 attached to a midpoint 341 m.
- spring retainer 304 t has an arm 304 ta which is bolted by nut and bolt assembly 27 to bracket 20 .
- the spring 4 s acts indirectly against the distal face 20 d of the bracket 20 .
- a head 302 h which has been screwed on to the end 102 b of bar 102 , then locked in place with a locking nut 5 c.
- a tensioning bar assembly 111 for a tensioning assembly 101 of a drive system 60 of an agricultural machine.
- a longitudinal bar 102 has a longitudinal axis 102 x, a top end 102 t, a bottom end 102 b, and a threaded portion 102 a over at least a portion of the bar.
- An attachment device 103 is coupled to the top end of the longitudinal bar for attaching the top end of the bar to a tensioning arm 41 .
- a compression spring 4 s has first 6 b and second 6 t ends, and is located around a portion 102 a of the longitudinal bar 102 .
- a first spring retainer 4 b engages with and retains the first end 6 b of the spring 4 s.
- a first locking nut 5 a fits to the threaded portion 102 a of the bar 102 and retains the first spring retainer 4 b longitudinally in place relative to the bar 102 .
- the longitudinal bar 102 is rotationally freely coupled to the attachment device 103 to permit free axial rotation of the bar about the longitudinal axis 102 x relative to the attachment device 103 .
- An engagement head 102 h, 302 h is attached to and located at or proximate the bottom end 102 b of the longitudinal bar 102 for engagement with a tool.
Abstract
A tensioning bar assembly for a drive system of an agricultural machine includes a longitudinal bar having a top end, a bottom end, and a threaded portion. An attachment device is coupled to the top end to attach to a tensioning arm. A compression spring is located around a portion of the longitudinal bar. A first spring retainer engages with and retains a first end of the spring. A first locking nut fits to the threaded portion of the bar and retains the first spring retainer longitudinally in place relative to the bar. The longitudinal bar is rotationally freely coupled to the attachment device to permit free axial rotation of the bar about its longitudinal axis relative to the attachment device, and an engagement head is attached to and located at or proximate the bottom end of the longitudinal bar for engagement with a tool.
Description
- This application is continuation of U.S. patent application Ser. No. 16/955,232, filed Jun. 18, 2020, which is a national phase entry under 35 U.S.C. § 371 of International Patent Application PCT/IB2018/057893, filed Oct. 11, 2018, designating the United States of America and published in English as International Patent Publication WO 2019/123032 A1 on Jun. 27, 2019, which claimed the benefit of the filing date of U.S.
Provisional Patent Application 62/612,776, “Easy Adjust Tensioner Assembly,” filed Jan. 2, 2018; and U.K. Patent Application 1721786.0, filed Dec. 22, 2017, “Easy Adjust Tensioner Assembly; the entire disclosure of each of which is incorporated herein by reference. - The present invention relates to a tensioner bar apparatus. In particular, the invention relates to a tensioner bar apparatus for use with a tensioner arm for a drive belt. Such a drive belt may typically be found in an agricultural apparatus, such as a combine harvester or other agricultural machine.
- Combine harvesters and other agricultural machines commonly contain a number of drive systems comprising a belt or chain to transfer power from a drive source to a driven power consuming system. Such belts or chains are often provided with a means for tensioning or taking up slack in the belt or chain in the drive system.
-
FIG. 1 shows atypical drive system 60 from a combine harvester. Thedrive system 60 provides drive power to a straw chopper at the rear end of a combine harvester. - The
drive system 60 comprises adriving wheel 61 and a drivenwheel 62 connected by abelt 63. Tension in thebelt 63 is applied by anidler wheel 47, which presses against thebelt 63 and is mounted on atensioning arm 41. - The
idler wheel 47 is rotationally mounted on a first end 41 a of thetensioning arm 41, and thetensioning arm 41 is pivotally mounted, at amidpoint 41 m, to the combine harvester. To thesecond end 41 b of the tensioning arm is connected atensioning bar assembly 11, which applies a tensioning force Fa. - The
tensioning bar assembly 11 comprises a longitudinal bar 2. At a first, or ‘top’ end 2 t of the bar 2 is a clevis assembly 3, which is connected to thesecond end 41 b of thetensioning arm 41 by aclevis pin 36. In this prior art arrangement, the longitudinal bar 2 is rotationally fixed to the clevis assembly 3 such that in effect the bar 2 and clevis assembly 3 are a unitary item. A portion 2 a of the bar 2 has a screw thread. Fitted over this threaded portion 2 a of the bar 2 is aspring 4 s, provided with atop retainer 4 t and abottom retainer 4 b, which together keep thespring 4 s in place. - When in position on the machine, the
top retainer 4 t butts up against abracket 20 attached to the combine harvester. Thebottom retainer 4 b is kept in its position on the bar 2 by a pair oflocking nuts first locking nut 5 a for adjustment of spring compression and thesecond locking nut 5 b for locking thefirst locking nut 5 a in place. - When in position on the machine, the
spring 4 s is effectively compressed between thebracket 20 and thelocking nuts bottom retainers spring 4 s on thetop retainer 4 t, and thus thebracket 20, acts to ‘push’ thebottom retainer 4 b, and thus thelocking nuts bracket 20. As thelocking nuts clevis pin 36, produces a sustained force on thesecond end 41 b of thetensioning arm 41. As thetensioning arm 41 is pivotally mounted at amidpoint 41 m, this produces a torque around thepivot point 41 p, such that theidler wheel 47, mounted on the first end 41 a of thetensioning arm 41, is pressed against thebelt 63 and thus provides a tensioning force Ft on thebelt 63. - It is occasionally necessary to adjust the
tensioning bar assembly 11, either to change the spring tension or to replace worn or broken components. To do this, when thetensioning bar assembly 11 is in position, it is necessary first to loosen thesecond locking nut 5 b. This releases thefirst locking nut 5 a to be rotated around, and thus move along, the threaded portion 2 a of the longitudinal bar 2, changing the axial position of thebottom retainer 4 b and thus adjusting the spring compression (and hence the force with which thespring 4 s acts against thebracket 20 and consequently, via the longitudinal bar 2, tensioningarm 41 andidler wheel 47, the tensioning force Ft with which theidler wheel 47 contacts the belt 63). This requires a wrench or spanner, such as an open end wrench/spanner or ratcheting wrench/spanner. - Use of such a wrench or spanner requires the involvement of an operator, and this is a job which is typically tedious and consumes an undesirable amount of time and energy. Further, machines such as a combine harvester, and indeed many other agricultural machines, are typically complex machines with many other components in close proximity to the drive system. Access to the
locking nuts nuts second locking nut 5 b, may require the use of two wrenches (spanners), due to tightness of the engagement of thelocking nuts first locking nut 5 a stationary and provide a reactive torque against the torque applied by a second wrench being used to loosen thesecond locking nut 5 b. Thus, access is typically required for two wrenches. A solution to these problems would be desirable. - In some embodiments, a
tensioning bar assembly 111 for atensioning assembly 101 of adrive system 60 of an agricultural machine includes alongitudinal bar 102 having alongitudinal axis 102 x, atop end 102 t and abottom end 102 b and a threaded portion 102 a over at least a portion of the bar; anattachment device 103 coupled to the top end of the longitudinal bar for attaching the top end of the bar to atensioning arm 41; acompression spring 4 s having first 6 b and second 6 t ends and located around a portion of the longitudinal bar; afirst spring retainer 4 b for engaging with and retaining thefirst end 6 b of the spring; afirst locking nut 5 a for fitting to the threaded portion 102 a of the bar and for retaining the first spring retainer longitudinally in place relative to the bar. The longitudinal bar is rotationally freely coupled to theattachment device 103 to permit free axial rotation of the bar about thelongitudinal axis 102 x relative to the attachment device. Anengagement head bottom end 102 b of thelongitudinal bar 102. The engagement head is configured for engagement with a tool. - An advantage of this tensioning bar assembly is that the adjustment of the tensioning bar assembly may be performed by using a single wrench to hold the locking nut rotationally stationary relative to the longitudinal axis of the bar, and a second tool can then be used to engage with the engagement head attached to the bottom end of the bar. The bar itself can be rotated by the second tool, resulting in a rotational motion of the bar relative to the locking nut and hence altering the longitudinal placement of the locking nut on the threaded portion of the bar. Usefully, the engagement head may not require the use of an open end wrench and may be provided with a head for engagement with a complementary socket, or alternatively a socket for engagement with a complementary head, or similar mechanical arrangement, which complementary head or socket may also be attached to a power tool of some kind, such as a pneumatic socket gun or power screwdriver. This would make the adjustment of the tensioning assembly easier and also potentially a great deal quicker, as well as greatly reducing the physical exertion required by a user.
- In an embodiment, the tensioning bar assembly further comprises a second spring retainer for engaging with and retaining the second end of the spring.
- As will be described below, when in use the tensioning bar assembly will be fitted to a bracket and a tensioning arm. In some embodiments, the second end of the spring may directly contact the bracket, but in other embodiments the bar assembly is provided with a second spring retainer which is formed to ‘cup’ the end of the spring. This second spring retainer either butts up against or is connected to the bracket.
- The first spring retainer is nominally kept in place longitudinally on the bar by the first locking nut. When the tensioner bar assembly is in place, the first spring retainer is pushed against the locking nut by the force of the spring.
- In an embodiment, the first spring retainer and the first locking nut may be a unitary item, i.e., may be formed in one piece.
- If the first spring retainer and first locking nut are a unitary item, then engagement of the spring with the first spring retainer may be more easily facilitated, because perpendicular motion of the first spring retainer will be prohibited due to its engagement with the threaded portion of the bar. It will also further facilitate the adjustment of the tensioner bar assembly.
- In an embodiment, the bar assembly may be provided with a second locking nut, fitted adjacent to the first locking nut on the threaded portion of the bar, in order to ‘lock’ the first locking nut in place.
- A second locking nut may be provided so as to assist in ‘locking’ the first locking nut, or, where there is a unitary first spring retainer/locking nut, the unitary item, axially in place on the threaded portion of the bar.
- In some embodiments, the engagement head at or proximate the bottom end of the bar may be any one or more of: a triangle, square, pentagon or hex head or socket; a posidrive head or socket; a torx head or socket; a slotted or phillips screwdriver receiving socket; a spline head or socket; a pair of locking nuts locked in position on the threaded portion, proximate the bottom end of the bar; or an engagement head device screwed to the bottom end of the bar on the threaded portion, optionally locked in place with a locking nut 5 c.
- The engagement head at or proximate the bottom end of the longitudinal bar has the purpose of allowing a tool to be applied to the longitudinal bar at a convenient point, and advantageously allows access to the engagement head in a longitudinal direction. Any shape of head may be used that allows for engagement with a tool. In some embodiments, a power tool may be used. The bottom end of the bar may therefore have any head or socket or other shape that allows engagement with a tool, and in addition to those already listed this may include any one of a head or socket such as Security Torx, Tri-wing, Spanner, Clutch, Mortorq, Frearson, Supadriv, Polydrive, Double square, Bristol, Torq-set, One-way, Pentalobe, TP3, or TTAP head, or indeed any other suitable geometry. The bar may be manufactured with such a head or socket in place as a unitary item with the bar. In a variant, the threaded portion of the bar may extend entirely to the bottom end of the bar, and a suitable head may be attached to the bottom end of the bar and locked in place with a locking nut. In a further variant, a hole may be present across a diameter of the bar, proximate to the bottom end, into which a pin may be inserted, and this pin may be engaged by a suitable tool.
- In an embodiment, the top end 2 t of the longitudinal bar 2 is located through a hole 34 in a portion 31 of the attachment device 3 and is retained in place by means of snap ring(s) or circlip(s) 21 c, 22 c located in groove(s) 21, 22 proximate the top end of the bar. In another embodiment, the attachment device is a clevis.
- Axial rotation of the longitudinal bar relative to the clevis (or other attachment device), while the longitudinal bar is retained in the clevis may be achieved by provision of a hole, such as a circular hole, in a body of the clevis or device. The longitudinal bar generally has a round cross-section, and the top end of the bar may be inserted into and through the hole. This allows the axial rotation of the bar relative to the device/clevis. Longitudinal restriction of the bar relative to the body of the device may be achieved by a circular groove around the diameter of the bar at a point proximate the top end of the bar, into which a snap ring or circlip may be fitted. In a variant, two such circular grooves may be provided so that a snap ring or circlip may be fitted to the bar on either side of the portion of the bar which penetrates the device, thus preventing axial movement of the bar relative to the device in either longitudinal direction.
- Alternatives to the clevis may be used as an attachment device, such as an L-shaped bracket with a hole in either arm, a rod, bar or plate with a hole for attaching to a pivot point and a piece of hollow tubing attached thereto for receiving the bar, or any one of a number of other equivalent items. However, in the art a clevis is generally used and for ease of reference herein a clevis may generally be referred to although any suitable alternative will be generally intended to be encompassed by such reference.
- In an embodiment, a
tensioning assembly 101 for a drive system includes atensioning bar assembly 111 as described elsewhere herein, and further comprising atensioning arm 41 pivotally mounted 41 p to the machine; atensioning device 47 mounted to the tensioning arm for contacting thedrive system bracket 20 mounted to the machine. The attachment device 3 is attached to thetensioning arm 41 at anattachment point spring 6 t is in direct or indirect physical contact with thebracket 20. Compression of the spring applied by and between thebracket 20 and thefirst spring retainer 4 b provides a resultant force Fa applied to the tensioning arm, via theattachment point pivot mounting point 41 p of the tensioning arm, which produces the tensioning force Ft to force thetensioning device 47 into contact against thedrive system 63. - The attachment point, where the clevis is attached to the tensioning arm, may usefully be a pivot mount where a clevis pin is inserted through holes in arms of the clevis and also through a hole in the tensioning arm. Clevis pins, threaded clevis pins, and alternatives therefor (such as a bolt-and-nut arrangement) are standard items well known to those skilled in the art, and any suitable pin or alternative may be used. Compression of the spring may be achieved by placing the second end of the spring against the bracket, attaching the clevis to the clevis attachment point, and then adjusting the first locking nut (via the method enabled by the main aspect of the invention) so as to move the first locking nut, and hence the first spring retainer towards the bracket, thus resulting in a compression of the spring. The spring thus produces a force which acts substantially longitudinally along the axis of the bar, either to pull the clevis attachment point towards the bracket, or, depending on the arrangement of the spring relative to the bracket and the arrangement of the tensioning arm, to push the clevis attachment point away from the bracket. In some embodiments, the bracket is provided with a hole through which the bar of the bar assembly is fitted. In such embodiments, the second end of the spring is placed against a second spring retainer, which is in turn placed against or connected to the bracket. Possible variations are described further in the embodiments below.
- In embodiments, the bracket has a facing
side 20 f facing towards the tensioning arm and adistal side 20 d facing away from the tensioning arm; thespring 4 s,first retainer 4 b, and first lockingnut 5 a are located on the distal side; and the second end of thespring 6 t is in direct or indirect physical contact with thedistal side 20 d of the bracket such that the resultant force Fa acts to pull theattachment point 103 p towards the bracket. - In embodiments, the bracket has a facing
side 20 f facing towards the tensioning arm and adistal side 20 d facing away from the tensioning arm; thespring 4 s,first retainer 4 b, and first lockingnut 5 a are located on the facing side; and the second end of thespring 6 t is in direct or indirect physical contact with the facing side of the bracket such that the resultant force acts to push theattachment point 103 p away from the bracket. - In embodiments, the
tensioning arm 41 has a first end 41 a and asecond end 41 b, thetensioning device 47 being mounted proximate to the first end 41 a, theattachment point 103 p being proximate to thesecond end 41 b, and the pivotal mounting 41 p of the tensioning arm being at amidpoint 41 m between the first and second ends. - In embodiments, the
tensioning arm 241, 341 has a first end 41 a and asecond end tensioning device 47 being mounted proximate to the first end 41 a, the pivotal mounting 241 p, 341 p of the tensioning arm being proximate to thesecond end attachment point 103 p being at amidpoint - The second end of the spring may act directly against the bracket, or may act on a second spring retainer which in turn acts upon the bracket. The bracket may comprise a dish or annular groove which acts as a second spring retainer. The longitudinal bar may be positioned so that it passes through a hole or notch in the bracket, and/or may be positioned so that it passes through a hole or a notch in the second spring retainer. The second spring retainer may comprise a hole or notch through which the longitudinal bar passes, and may be attached by an arm so that the spring is laterally displaced from the bracket, as in
FIG. 4 c . The attachment may be by screws, rivets, a simple clamp, or by any other means generally known in the art, such as nut/bolt combination 27 shown inFIG. 4 c. - The tensioning device may be any suitable device for pressing against the drive system of the machine.
- The drive system may be a belt drive or may be a chain drive. In either case, the tensioning device may be an idler wheel, roller, or may be a simple bar. Where the drive system is a chain drive, the tensioning device may equally be an idler gear with teeth that engage the chain.
- In some embodiments, there is provided a drive system comprising a tensioning arm assembly or tensioning assembly as described herein.
- In some embodiments, there is provided an agricultural machine comprising a tensioning bar assembly, tensioning assembly or drive system as described herein.
- In an embodiment, an agricultural machine may be a combine harvester.
- The invention will now be described in more detail by reference to the attached figures.
-
FIG. 1 shows a typical prior art drive system from a combine harvester. It shows a drive system which provides drive power to a straw chopper at the rear end of a combine harvester and which has a tensioning assembly comprising a tensioning arm and a tensioning bar assembly. -
FIG. 2 shows a cross-sectional view through a portion of the prior art tensioning assembly ofFIG. 1 in more detail. -
FIG. 3 shows a diagrammatic view of elements of a tensioning bar assembly. -
FIG. 3 a shows a diagrammatic cross-sectional view of a clevis assembly. -
FIG. 3 b shows a diagrammatic partial view of an end of the bar assembly as shown inFIGS. 3 and 3 a. -
FIGS. 4 a, 4 b, and 4 c show schematic alternative arrangements of bar assembly, bracket, and tensioner arm. -
FIG. 1 , as described elsewhere herein, andFIG. 2 show: - The
drive system 60 comprises adriving wheel 61 and a drivenwheel 62 connected by abelt 63. Tension in thebelt 63 is applied by a tensioning assembly 1. Tensioning assembly 1 includes anidler wheel 47 which presses against thebelt 63 with force Ft and is rotationally mounted on atensioning arm 41 at a first end 41 a of thetensioning arm 41. - The
tensioning arm 41 is pivotally mounted on apivot 41 p, at amidpoint 41 m, to a combine harvester (not shown). To thesecond end 41 b of thetensioning arm 41 b is connected to atensioning bar assembly 11, which applies a force Fa to theend 41 b of thearm 41. - The
tensioning bar assembly 11 comprises a longitudinal bar 2. At a first, or ‘top’ end 2 t of the bar 2 is a clevis assembly 3 which is connected to thesecond end 41 b of thetensioning arm 41 by aclevis pin 36 at anattachment point 3 p. In this prior art arrangement, the longitudinal bar 2 is fixed to the clevis assembly 3 such that in effect the bar 2 and clevis 3 are a unitary item. A portion 2 a of the bar 2 has a screw thread. Fitted over this threaded portion 2 a of the bar 2 is aspring 4 s, havingfirst end 6 b andsecond end 6 t, and also afirst spring retainer 4 b and asecond spring retainer 4 t which together keep thespring 4 s in place. - When in position on a combine harvester (or other machine), the
second spring retainer 4 t butts up againstbracket 20 which is attached, ultimately, to the combine harvester. InFIG. 2 ,spring retainer 4 t has a generally curved top surface which locates in a generally curved recess on thedistal side 20 d ofbracket 20, which allows a degree of freedom of movement. Bar 2 fits through a hole provided inbracket 20.Bracket 20 has a facingside 20 f facing towards thetensioning arm 41 and adistal face 20 d facing away from the tensioning arm. Thefirst spring retainer 4 b is kept in its position on the bar by a pair of lockingnuts first locking nut 5 a for adjustment of spring compression and thesecond locking nut 5 b for locking the nuts in place. - When in position on the machine, the
spring 4 s is effectively compressed between thedistal side 20 d ofbracket 20 and thelocking nuts retainers spring spring 4 s on thesecond retainer 4 t, and thus thebracket face 20 d, acts to ‘push’ thefirst retainer 4 b, and thus thelocking nuts bracket 20. As thelocking nuts clevis pin 36 at theattachment point 3 p, produces a sustained pulling force on thesecond end 41 b of thetensioning arm 41. As thetensioning arm 41 is pivotally mounted at amidpoint 41 m of thearm 41, this produces a torque T around thepivot point 41 p, such that theidler wheel 47, mounted on the first end 41 a of thetensioning arm 41, is pressed against thebelt 63 and thus provides a tensioning force Ft on thebelt 63. -
FIG. 3 shows atensioning bar assembly 111 for use as a replacement for the prior arttensioning bar assembly 11 shown inFIGS. 1 and 2 . - A
longitudinal bar 102 has a first ortop end 102 t and a threaded portion 102 a that extends from roughly a mid-point of thebar 102 to a second, orbottom end 102 b of thebar 102. A portion of thebottom end 102 b of thebar 102 is formed into ahex head 102 h so that a tool can be applied to it.Spring 4 s with ends 6 b and 6 t and first andsecond spring retainers bar 102. First andsecond locking nuts bar 102, adjacent thefirst spring retainer 4 b. At thetop end 102 t of thebar 102 is affixed aclevis assembly 103, shown in more detail inFIG. 3 a. -
FIG. 3 a shows that theclevis 103 has amain body 131 andarms 132. Themain body 131 has ahole 134 through whichtop end 102 t ofbar 102 may slidingly fit.Hole 134 and bar 102 are circular in cross-section so thatbar 102 may freely rotate within thehole 134 aboutlongitudinal axis 102 x. Each of thearms 132 is also provided with ahole 135 through which aclevis pin 36 may be fitted. InFIG. 3 , it can be seen thatclevis pin 36 is further fitted with acirclip 37. The top end of thebar 102 t is provided withgrooves FIG. 3 b , into whichcirclips FIGS. 3 and 3 a. Depending on the fitment of the longitudinal bar assembly as part of the tensioning assembly, only one or other of the groove/circlip combinations may be required. For example, if the bar assembly is to provide a force Fa which pulls on thepivot point 3 p, then only circlip 121 c is strictly necessary. Likewise if thebar 102 is arranged to push onpivot point 3 p, only circlip 122 c may be required. - As described hereinbefore, the arrangement shown in
FIGS. 3, 3 a and 3 b allows for the simple adjustment of the tensioning assembly by engaging a tool at lockingnut 5 a, which can then be held stationary while thebar 102 is rotated by application of another tool to thehex head 102 h, thus rotationally movingbar 102 relative tonut 5 a and hence movingnut 5 a along the bar. Lockingnut 5 b can similarly be moved along the bar until it butts up againstnut 5 a, locking it in position. A final operation with wrenches on bothnuts -
FIG. 4 a shows an alternative embodiment oftensioning assembly 101 where atensioning bar assembly 111 is arranged as part of atensioning assembly 101 where thetensioning bar assembly 111 is located the other side of thetensioning arm 41 than in the arrangement of prior artFIG. 1 . In this arrangement, tensioning force Fa is a pushing force on tensioningarm 41 due to the placement of thespring 4 s, retainers (4 b, 4 t) and a lockingnut 5 a on the facingside 20 f of thebracket 20. This results in the same torque T aboutpivot point 41 p and tensioning force Ft as illustrated inFIG. 1 , albeit with a different placement of elements of the tensioning assembly. -
FIG. 4 b shows an alternative embodiment where force Fa from tensioningbar assembly 111 is a pushing force on tensioning arm 241 due to the placement of thespring 4 s, aretainer 4 b andnut 5 a on the facingside 20 f of thebracket 20. In this embodiment, arm 241 is pivotally mounted 241 p at itssecond end 241 b andclevis 103 is mounted viapin 103 p to amidpoint 241 m of the arm 241. Pushing force Fa again results in a torque T aboutpivot point 241 p which provides a tensioning force Ft on thebelt 63. In this embodiment, it is also notable thatsecond end 6 t ofspring 4 s acts directly against theface 20 f of thebracket 20 and there is noretainer 4 t. -
FIG. 4 c shows an alternative embodiment where force Fa is a pulling force on tensioningarm 341 andtensioning arm 341 is pivoted about itssecond end 341 b withclevis 103 attached to amidpoint 341 m. In this embodiment,spring retainer 304 t has an arm 304 ta which is bolted by nut andbolt assembly 27 tobracket 20. In this way, thespring 4 s acts indirectly against thedistal face 20 d of thebracket 20. Also in this embodiment is shown ahead 302 h which has been screwed on to theend 102 b ofbar 102, then locked in place with a locking nut 5 c. - In summary there is disclosed a
tensioning bar assembly 111 for atensioning assembly 101 of adrive system 60 of an agricultural machine. Alongitudinal bar 102 has alongitudinal axis 102 x, atop end 102 t, abottom end 102 b, and a threaded portion 102 a over at least a portion of the bar. Anattachment device 103 is coupled to the top end of the longitudinal bar for attaching the top end of the bar to atensioning arm 41. Acompression spring 4 s has first 6 b and second 6 t ends, and is located around a portion 102 a of thelongitudinal bar 102. Afirst spring retainer 4 b engages with and retains thefirst end 6 b of thespring 4 s. Afirst locking nut 5 a fits to the threaded portion 102 a of thebar 102 and retains thefirst spring retainer 4 b longitudinally in place relative to thebar 102. Thelongitudinal bar 102 is rotationally freely coupled to theattachment device 103 to permit free axial rotation of the bar about thelongitudinal axis 102 x relative to theattachment device 103. Anengagement head bottom end 102 b of thelongitudinal bar 102 for engagement with a tool. - Clearly the skilled person will recognize that various aspects, embodiments and elements of the present application, including as illustrated in the figures, may be arranged in differing combinations, any and all of which may be considered to fall within the ambit of the inventive concept. The invention will be defined by the following claims.
Claims (20)
1. A tensioning bar assembly for a drive system of an agricultural machine, the tensioning bar assembly comprising:
a longitudinal bar having a longitudinal axis, a top end, a bottom end, and a threaded portion;
an attachment device coupled to the top end of the longitudinal bar for attaching the top end of the bar to a tensioning arm;
a compression spring having first and second ends, the spring located around a portion of the longitudinal bar;
a first spring retainer engaging with and retaining the first end of the spring; and
a first locking nut fitted to the threaded portion of the bar and retaining the first spring retainer longitudinally in place relative to the bar;
wherein the longitudinal bar is rotationally freely coupled to the attachment device to permit free axial rotation of the longitudinal bar about the longitudinal axis relative to the attachment device, wherein the longitudinal bar comprises an engagement head attached to and located at or proximate the bottom end of the longitudinal bar and fixed relative to the longitudinal bar, and wherein the engagement head is configured for engagement with a tool such that rotation of the engagement head by the tool drives rotation of the longitudinal bar.
2. The tensioning bar assembly of claim 1 , further comprising a second spring retainer engaging with and retaining the second end of the spring.
3. The tensioning bar assembly of claim 1 , wherein the first spring retainer and the first locking nut are a unitary item.
4. The tensioning bar assembly of claim 1 , further comprising a second locking nut fitted adjacent to the first locking nut on the threaded portion of the bar, wherein the second locking nut is configured to lock the first locking nut in place.
5. The tensioning bar assembly of claim 1 , wherein the engagement head comprises a head selected from the group consisting of a triangle head, a square head, a pentagon head, a hex head, a triangle socket, a square socket, a pentagon socket, a hex socket, a posidrive head, a posidrive socket, a torx head, a torx socket, a slotted-screwdriver-receiving socket, a Phillips-screwdriver-receiving socket, a spline head, a spline socket, a pair of locking nuts locked in position on the threaded portion of the bar proximate the bottom end of the bar; and an engagement head device screwed to the bottom end of the bar on the threaded portion of the bar.
6. The tensioning bar assembly of claim 1 , wherein the top end of the longitudinal bar is located within a hole in a portion of the attachment device and wherein the top end of the longitudinal bar is retained in place by a snap ring located in a groove proximate the top end of the bar.
7. The tensioning bar assembly of claim 1 , wherein the attachment device is a clevis.
8. The tensioning bar assembly of claim 1 , wherein the engagement head comprises a unitary head or socket integral with the bar.
9. A drive system comprising the tensioning bar assembly of claim 1 .
10. An agricultural machine comprising the tensioning bar assembly of claim 1 .
11. The agricultural machine of claim 10 , wherein the machine is a combine harvester.
12. A tensioning assembly for a drive system of an agricultural machine, the tensioning assembly comprising:
a tensioning arm configured to be pivotally mounted to a machine carrying the drive system;
a tensioning device mounted to the tensioning arm and configured to apply a tensioning force directly to the drive system; and
a bracket configured to be mounted to the machine;
an attachment device attached to the tensioning arm at an attachment point;
a longitudinal bar having a longitudinal axis, a top end, a bottom end, a threaded portion, and an engagement head attached to and located at or proximate the bottom end of the longitudinal bar and fixed relative to the longitudinal bar, wherein:
the top end of the longitudinal bar is coupled to the attachment device, the longitudinal bar is rotationally freely coupled to the attachment device to permit free axial rotation of the longitudinal bar about the longitudinal axis relative to the attachment device; and
the engagement head is configured for engagement with a tool such that rotation of the engagement head by the tool drives rotation of the longitudinal bar;
a compression spring having first and second ends, the spring located around a portion of the longitudinal bar;
a first spring retainer engaging with and retaining the first end of the compression spring; and
a first locking nut fitted to the threaded portion of the bar and retaining the first spring retainer longitudinally in place relative to the bar;
wherein the second end of the compression spring is in direct or indirect physical contact with the bracket, such that compression of the compression spring applied by and between the bracket and the first spring retainer applies a resultant force to the tensioning arm, via the attachment point, about the pivot mounting point of the tensioning arm, which produces the tensioning force to force the tensioning device into contact against the drive system.
13. The tensioning assembly of claim 12 , wherein:
the bracket has a facing side facing towards the tensioning arm and a distal side facing away from the tensioning arm;
the compression spring, first retainer, and first locking nut are located on the distal side; and
the second end of the compression spring is in direct or indirect physical contact with the distal side of the bracket such that the resultant force acts to pull the attachment point towards the bracket.
14. The tensioning assembly of claim 12 , wherein:
the bracket has a facing side facing towards the tensioning arm and a distal side facing away from the tensioning arm;
the compression spring, first retainer, and first locking nut are located on the facing side; and
the second end of the compression spring is in direct or indirect physical contact with the facing side of the bracket such that the resultant force acts to push the attachment point away from the bracket.
15. The tensioning assembly of claim 12 , wherein:
the tensioning arm has a first end and a second end;
the tensioning device is mounted proximate to the first end;
the attachment point is proximate to the second end; and
the pivotal mounting of the tensioning arm is at a midpoint between the first and second ends.
16. The tensioning assembly of claim 12 , wherein:
the tensioning arm has a first end and a second end;
the tensioning device is mounted proximate to the first end;
the pivotal mounting of the tensioning arm is proximate to the second end; and
the attachment point is at a midpoint between the first and second ends.
17. The tensioning assembly of claim 12 , further comprising a second spring retainer engaging with and retaining the second end of the compression spring, wherein the second spring retainer further engages with the bracket.
18. The tensioning assembly of claim 17 , wherein the second spring retainer and the bracket are a unitary item.
19. The tensioning assembly of claim 12 , wherein the tensioning device comprises an idler wheel and the drive system comprises a belt-drive system or a chain-drive system.
20. The tensioning assembly of claim 12 , wherein the tensioning device comprises an idler gear and the drive system comprises a chain-drive system.
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US202016955232A | 2020-06-18 | 2020-06-18 | |
US18/151,649 US11773945B2 (en) | 2017-12-22 | 2023-01-09 | Easy adjust tensioner assembly |
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GB (1) | GB201721786D0 (en) |
WO (1) | WO2019123032A1 (en) |
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Publication number | Priority date | Publication date | Assignee | Title |
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US20220323966A1 (en) * | 2021-04-13 | 2022-10-13 | Alamo Group Inc. | Work machine with belt tensioning system and method |
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US1835617A (en) * | 1928-07-24 | 1931-12-08 | Emanuel Frohman | Automatic belt tightener |
US1792165A (en) * | 1928-07-31 | 1931-02-10 | Farquhar Co Ltd Ab | Drive mechanism |
US2195229A (en) * | 1939-01-28 | 1940-03-26 | Rupert B Smart | Transmission |
US2341273A (en) * | 1942-08-05 | 1944-02-08 | Boeing Aircraft Co | Cable tensioning device |
US2523166A (en) * | 1946-10-04 | 1950-09-19 | Earl Realty Company | Tractor mower connection |
US3479894A (en) * | 1968-02-28 | 1969-11-25 | Deere & Co | Belt tensioning device |
US4036070A (en) * | 1976-07-15 | 1977-07-19 | Scott Bonnar Limited | Slack belt clutch |
US4324552A (en) * | 1980-03-14 | 1982-04-13 | Deere & Company | Belt drive system with clutch |
CA1156499A (en) * | 1981-03-05 | 1983-11-08 | Derald H. Kraft | Mechanical belt tensioner construction |
US5769747A (en) * | 1996-09-05 | 1998-06-23 | Deere & Company | Belt tensioning mechanism with stop feature |
FR2755201B1 (en) * | 1996-10-25 | 1998-12-04 | Hutchinson Sa | TENSIONER FOR MECHANICAL POWER TRANSMISSION DEVICE, DEVICE COMPRISING SUCH A TENSIONER AND HEAT MOTOR FOR A MOTOR VEHICLE COMPRISING SUCH A DEVICE |
US6165089A (en) * | 1998-04-15 | 2000-12-26 | Mcgreal; Timothy R. | Transmission apparatus and method |
FR2794206B1 (en) * | 1999-05-26 | 2001-07-06 | Kuhn Sa | PROCESS FOR ASSEMBLY / DISMANTLING AND AUTOMATICALLY ADJUSTING THE TENSION OF AN ENDLESS TRANSMISSION - AGRICULTURAL MACHINE USING SUCH A PROCESS |
JP2002357251A (en) * | 2001-06-01 | 2002-12-13 | Shin Caterpillar Mitsubishi Ltd | Belt tension device in working machine |
AU2003224870A1 (en) * | 2002-04-12 | 2003-10-27 | Appleton Control Systems, Inc. | Belt tensioning assembly |
US6773367B2 (en) * | 2002-07-15 | 2004-08-10 | Case Corporation | Belt drive two speed shift mechanism |
ATE387986T1 (en) * | 2003-01-21 | 2008-03-15 | R T T S R L | DEVICE FOR CLEANING AND DESCUSTING THE EXTERNAL SURFACE OF OBLONGED WORKPIECES |
US7229140B2 (en) * | 2004-04-01 | 2007-06-12 | Clark Equipment Company | Pre-tensioned spring track tensioning system |
GB2432770A (en) * | 2005-12-01 | 2007-06-06 | Cnh Belgium Nv | Belt tensioning system for forage harvester |
EP2532922B1 (en) * | 2010-09-28 | 2015-02-18 | Oxbo International Corporation | Tensioning system for tensioning a belt or chain |
BE1019624A3 (en) * | 2010-12-22 | 2012-09-04 | Cnh Belgium Nv | CONTAINER FOR HARVESTING CROPS AND METHOD OF HARVESTING CROPS. |
BE1023230B1 (en) * | 2015-08-24 | 2017-01-05 | Cnh Industrial Belgium Nv | Tensioning roller assembly for a belt drive |
CN105173900A (en) * | 2015-09-10 | 2015-12-23 | 潘琴丽 | Tensioning device with traction wheels |
CN105185478A (en) * | 2015-09-10 | 2015-12-23 | 潘琴丽 | Elastic tensile force adjusting device for traction wheels |
TWM526564U (en) * | 2016-04-28 | 2016-08-01 | Uni President Entpr Corp | Belt roller clip device |
US10054199B2 (en) * | 2016-08-16 | 2018-08-21 | Jody William Newman | Drive belt tensioning device |
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2017
- 2017-12-22 GB GBGB1721786.0A patent/GB201721786D0/en not_active Ceased
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2018
- 2018-10-11 US US16/955,232 patent/US11578787B2/en active Active
- 2018-10-11 WO PCT/IB2018/057893 patent/WO2019123032A1/en unknown
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- 2018-10-11 BR BR112020008610-0A patent/BR112020008610B1/en active IP Right Grant
- 2018-10-11 EP EP18797110.6A patent/EP3726956B1/en active Active
- 2018-10-11 CN CN201880070183.0A patent/CN111615329B/en active Active
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BR112020008610A2 (en) | 2020-10-20 |
US20200325967A1 (en) | 2020-10-15 |
CN111615329B (en) | 2023-04-07 |
GB201721786D0 (en) | 2018-02-07 |
EP3726956A1 (en) | 2020-10-28 |
US11773945B2 (en) | 2023-10-03 |
BR112020008610B1 (en) | 2023-11-21 |
WO2019123032A1 (en) | 2019-06-27 |
EP3726956B1 (en) | 2023-03-01 |
US11578787B2 (en) | 2023-02-14 |
CN111615329A (en) | 2020-09-01 |
CA3076460A1 (en) | 2019-06-27 |
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